Method and apparatus for controlling a high voltage generator in a wafer burn-in test

1. A method for controlling a high voltage generator in a semiconductor memory device, comprising: disabling a high voltage generator responsive to a mode signal; stabilizing an external voltage; and applying the external voltage to the device after the disabling.

2. The method of claim 1 where disabling includes disabling the high voltage generator responsive to a wafer burn-in test mode signal.

3. A method for controlling a high voltage generator in a semiconductor memory device, comprising: disabling a high voltage generator responsive to a mode signal; and applying an external voltage to the semiconductor memory device through a pad responsive to the disabling; where disabling the high voltage generator includes disabling the high voltage generator after stabilizing the externally applied voltage.

4. A semiconductor memory device, comprising: a high voltage generator adapted to generate a high voltage; and an operation enable detecting circuit adapted to disable the high voltage generator responsive to a mode signal; where a stabilized external voltage is applied to a pad when the high voltage generator is disabled.

5. The device of claim 4 where the mode signal indicate a wafer burn-in test mode.

6. A semiconductor memory device comprising: a high voltage generator adapted to generate a high voltage; and an operation enable detecting circuit adapted to disable the high voltage generator responsive to a mode signal; where an external voltage is applied to a pad when the high voltage generator is disabled; and where the operation enable detecting circuit is adapted to completely disable the high voltage generator after the external voltage stabilizes.

7. A semiconductor memory device comprising: a high voltage generator adapted to generate a high voltage; and an operation enable detecting circuit adapted to disable the high voltage generator responsive to a mode signal; where an external voltage is applied to a pad when the high voltage generator is disabled; and where the operation enable detecting circuit comprises: a first inverter adapted to invert the mode signal; a second inverter adapted to invert a driving signal; and a NAND gate adapted to generate an generator enable signal by logically NANDing the inverted mode and driving signals.

8. A method for controlling a high voltage generator that supplies an internal voltage to a semiconductor memory device, comprising: cutting off the high voltage generator responsive to a mode signal; and supplying an external voltage necessary for the mode to the semiconductor memory device after the external voltage stabilizes.

9. The method of claim 8 where cutting off comprises cutting off the high voltage generator responsive to a mode signal indicative of a wafer burn-in test.

10. A method for controlling a high voltage generator that supplies an internal voltage to a semiconductor memory device, comprising: cutting off the high voltage generator responsive to a mode signal; and supplying an external voltage necessary for the mode to the semiconductor memory device through a pad; where cutting off comprises cutting off the high voltage generator a predetermined time after the high voltage generator supplies the internal voltage to the semiconductor memory device.

11. A method for controlling a high voltage generator that supplies an internal voltage to a semiconductor memory device, where the high voltage generator includes a level detector, the method comprising: cutting off the high voltage generator responsive to a mode signal; supplying an external voltage necessary for the mode to the semiconductor memory device through a pad; controlling a reference voltage level of a level detector responsive to the mode signal; and modifying the internal voltage responsive to the mode signal.

12. The method of claim 11 where controlling the reference voltage level is performed through at least one voltage drop element.

13. The method 11 where controlling the reference voltage level is performed through a plurality of serially connected P-type MOS diodes.

14. A semiconductor memory device, comprising: a high voltage generator for generating an internal high voltage; a disabling circuit adapted to disable the high voltage generator responsive to a mode signal; and a pad adapted to supply an external high voltage responsive to disabling the high voltage generator after the external high voltage stabilizes.

15. The device of claim 14 where the mode signal indicates a wafer burn-in test.

16. A semiconductor memory device comprising: a high voltage generator for generating an internal high voltage; a disabling circuit adapted to disable the high voltage generator responsive to a mode signal; and a pad adapted to supply an external high voltage responsive to disabling the high voltage generator; where the disabling circuit is adapted to progressively disable the high voltage generator according to a stabilization ramp of the external high voltage supplied to the pad.